/*
 *                  BioJava development code
 *
 * This code may be freely distributed and modified under the
 * terms of the GNU Lesser General Public Licence.  This should
 * be distributed with the code.  If you do not have a copy,
 * see:
 *
 *      http://www.gnu.org/copyleft/lesser.html
 *
 * Copyright for this code is held jointly by the individual
 * authors.  These should be listed in @author doc comments.
 *
 * For more information on the BioJava project and its aims,
 * or to join the biojava-l mailing list, visit the home page
 * at:
 *
 *      http://www.biojava.org/
 * 
 * Created on Jan 29, 2006
 *
 */
package org.jscc.app.client.biojava3.structure.align.pairwise;


import java.util.ArrayList;
import java.util.List;

import org.jscc.app.client.biojava3.structure.align.helper.AligMatEl;
import org.jscc.app.client.biojava3.structure.align.helper.GapArray;
import org.jscc.app.client.biojava3.structure.align.helper.IndexPair;

/** a class to perform Gotoh algorithm
 * 
 * @author Andreas Prlic (Java), Peter Lackner (original C code)
 * @since 10:56:53 AM
 * @version %I% %G%
 */
public class Gotoh {
    public static int ALIGFACTOR = 1000; // constant to shift floats to ints
    
    Alignable a;
    
    int k,openPen,elgPen,rowDim,colDim,openVal,elgVal;
    
    AligMatEl currentCell;
    GapArray currentGap;
    
   
    
    public Gotoh(Alignable alignable) {
        super();
        a = alignable;
        
        align();
        
    }
    
    
   
    private void align() {
        
        rowDim = a.getRows()+1;
        colDim = a.getCols()+1;
        
        openPen = Math.round(ALIGFACTOR * a.getGapOpenCol());
        elgPen  = Math.round(ALIGFACTOR * a.getGapExtCol());
        
        GapArray[] gapCol = new GapArray[colDim];
        GapArray[] gapRow = new GapArray[rowDim];
       
        // init the arrays
        for ( int i = 0 ; i< colDim;i++){
            gapCol[i] = new GapArray();
        }
        for ( int j = 0 ; j< rowDim;j++){
            gapRow[j] = new GapArray();
        }
        currentGap = new GapArray();
        
        AligMatEl[][]aligmat = a.getAligMat();
        //System.out.println("check: aligmat row:" + aligmat.length + " aligmat col:" + aligmat[0].length);
        //System.out.println("check rowdim" + rowDim + " colDim " + colDim);
        int lastValue = aligmat[rowDim-1][colDim-1].getValue();
        
//      first cell
        aligmat[0][0].setValue(0);
        gapCol[0].setValue(0);
        gapCol[0].setIndex(0);
        gapRow[0].setValue(0);
        gapRow[0].setIndex(0);
        
        // set row 0 margin
        for(int j=1;j<colDim;j++) {
            aligmat[0][j].setValue(0);
            gapCol[j].setValue(-(openPen+elgPen));
            gapCol[j].setIndex(0);
        }
        
        
        for(int rowCounter=1;rowCounter<rowDim;rowCounter++){
            
            // set column 0 margin
            aligmat[rowCounter][0].setValue(0);
            gapRow[rowCounter].setValue(-(openPen+elgPen));
            gapRow[rowCounter].setIndex(0);
            
            for(int colCounter=1;colCounter<colDim;colCounter++) {
                
                currentCell = aligmat[rowCounter][colCounter];

                // no gap 
                currentCell.setValue( aligmat[rowCounter-1][colCounter-1].getValue() + currentCell.getValue());
                currentCell.setRow((short)(rowCounter-1));
                currentCell.setCol((short)(colCounter-1));
                
                // scan column j for gap, gap in seqB
                openVal = aligmat[rowCounter-1][colCounter].getValue() - (openPen+elgPen);
                elgVal  = gapCol[colCounter].getValue()-elgPen;
                
                currentGap = new GapArray();
                
                if ( openVal >= elgVal){
                    currentGap.setValue(openVal);
                    currentGap.setIndex(rowCounter-1); 
                } else {
                    currentGap.setValue(elgVal);
                    currentGap.setIndex(gapCol[colCounter].index);
                }
                gapCol[colCounter] = currentGap;
                
                if (currentGap.getValue() > currentCell.getValue()){
                    if ( currentGap.getIndex() >= rowDim)
                        System.err.println("col gap at" + rowCounter + " " + colCounter + " to " + currentGap.getIndex());
                    currentCell.setValue( currentGap.getValue());
                    currentCell.setRow((short)currentGap.getIndex());
                    currentCell.setCol((short)colCounter);
                }
                
//              scan row i for gap, gap in row
                openVal = aligmat[rowCounter][colCounter-1].getValue()-(openPen+elgPen);
                elgVal  = gapRow[rowCounter].getValue() - elgPen;
                
                currentGap = new GapArray();
                
                if (openVal >= elgVal){
                    currentGap.setValue(openVal);
                    currentGap.setIndex(colCounter-1); 
                } else {
                    currentGap.setValue(elgVal);
                    currentGap.setIndex(gapRow[rowCounter].getIndex());
                }
                gapRow[rowCounter] = currentGap;
                
                
                if ( currentGap.getValue() > currentCell.getValue() ) {
                    if ( currentGap.getIndex() >= colDim)
                        System.err.println("row gap at" + rowCounter + " " + colCounter + " to " + currentGap.getIndex());
                    currentCell.setValue(currentGap.getValue());
                    currentCell.setRow((short)rowCounter);
                    currentCell.setCol((short)currentGap.getIndex());
                }
                
                //System.out.println("aligmat " + i + " " + j + " " + currentCell.getValue() + 
                //        " " + currentCell.getTrack().getRow() + " " +
                //        currentCell.getTrack().getCol());
                aligmat[rowCounter][colCounter]=currentCell;
            }
            
        }
        
        
        // last cell in alignment matrix
        // do not penalize end gaps
        int rowCount = rowDim -1;
        int colCount = colDim -1;
        currentCell = aligmat[rowCount][colCount];
        //System.out.println("dimension: " + rowCount + " " + colCount);
        //System.out.println("lastValue " + lastValue + " lastCell " + currentCell.getValue());
       
        // no gap
        currentCell.setValue(aligmat[rowCount-1][colCount-1].getValue() + lastValue);
        currentCell.setRow((short)(rowCount-1));
        currentCell.setCol((short)(colCount-1));
        
        // scan last column j for gap, gap in seqB
        // do not penalyze gaps
        for (int k=1;k<=rowCount;k++) {
            int val = aligmat[rowCount-k][colCount].getValue();
            if ( val>currentCell.getValue()){
                currentCell.setValue(val);
                //System.out.println("setting row to " + (rowCount ) );
                currentCell.setRow((short)(rowCount-k ));
                currentCell.setCol((short)(colCount  ));
            }
        }
        
        // scan row i for gap, gap in SeqA 
        // do not penalyze gaps 
        for (int k=1;k<=colCount;k++) {
            int val = aligmat[rowCount][colCount-k].getValue();
            if ( val > currentCell.getValue()){
                currentCell.setValue(val);
                currentCell.setRow((short) (rowCount ) );
                currentCell.setCol((short)(colCount-k  ));
            }
        }
        //aligmat[rowCount][colCount]=currentCell;
        //System.out.print (" lastcell " + i + " " + j + " " + currentCell);
        //a.setAligMat(aligmat);
        //System.out.println("score:");
        //System.out.println(aligmat[rowDim-1][colDim-1].getValue());
        a.setScore(aligmat[rowDim-1][colDim-1].getValue() / (float)ALIGFACTOR);
        //writeToFile(aligmat);
        setPath();
           
    }
    
    
    /*private void writeToFile(AligMatEl[][] aligmat){
        String PATH = "/Users/ap3/tmp/";
        
        File f = new File(PATH + "aligmat.out");
        //String outputfile = "/Users/ap3/WORK/PDB/rotated.pdb";
        try {
            FileOutputStream out= new FileOutputStream(f,false); 
            PrintStream p =  new PrintStream( out );
            PrintWriter pw = new PrintWriter(p);
            
            
            for (int i=0 ; i < aligmat.length; i ++){
                String line = "";
                for (int j=0 ; j < aligmat[0].length;j++){
                    AligMatEl e = aligmat[i][j];
                    line += e.getTrack() + " ";                    
                }
                pw.println(line);
            }
            out.flush();
            out.close();
        } catch (Exception e) {
            e.printStackTrace();
        }
      
        
    }*/
    private void setPath(){
        
        int  n;
        IndexPair[] backId = new IndexPair[a.getRows()+1+a.getCols()+1];
        //IndexPair[] path = a.getPath();
        List path = new ArrayList();
        
        backId[0] = new IndexPair((short)(a.getRows()),(short)(a.getCols()));
        
        // backtrace, get backId indices, the indices in diagonal store in path
       
       
        int pathsize = 0;
        
        AligMatEl[][] aligmat = a.getAligMat();
       

        //AligMatEl el1 =aligmat[0][0];
        //System.out.println("element at 00:" + el1);
        n=1;
        while ( (backId[n-1].getRow()>=1) && 
                (backId[n-1].getCol()>=1) 
               )
                {
            // get backtrace index
            int x = backId[n-1].getRow();
            int y = backId[n-1].getCol();
            
            //System.out.println("path pos n: + " + n + " x:" + x + " y:" + y + " ");
            //if (( x >= a.getRows()-1) || ( y >=a.getCols()-1))
            //    System.out.println("x:"+ x + " y " + y + " rows:" + a.getRows() + " cols:" + a.getCols());
            try {
                
                AligMatEl el = null ;
                try {
                    el =aligmat[x][y];
                } catch(Exception e){
                    
                    
                    e.printStackTrace();
                    for (int f=0; f< n;f++){
                        System.out.println(backId[f]);
                    }
                    
                   
                  
                }
                //if (( x >= a.getRows()-1) || ( y >=a.getCols()-1))
                //System.out.println("el at x " + x + " y " + y + " " +  el);
                
                if ( el == null)
                    System.out.println("el = null! x:"+ x + " y " + y);
                //if ( n>=( backId.length-10))
                    //System.out.println("setPath:"+ el + " n:" + n + " " + backId.length);   
                backId[n] = el;
            } catch (Exception e){
                e.printStackTrace();
                System.out.println("x " + x);
                System.out.println("y " + y);
                System.out.println(backId[n-2]);
                System.exit(0);
            }
            // get diagonal indeces into path
            if (((backId[n-1].getRow() - backId[n].getRow()) == 1) 
                        && (( backId[n-1].getCol() - backId[n].getCol()) == 1)) {
                //System.out.println("adding to path " + backId[n-1] + " n " + n + " pathsize " + pathsize + " backId.length: " + backId.length);
                path.add(backId[n-1]);
                //path[pathsize] = backId[n-1];    
                pathsize++;
                    
            }   
            n++;
        }
        
        // path is reverse order..
        // switch order
        //System.out.println("path size after refine:" +path.size() + " " + pathsize);
        IndexPair[] newpath = new IndexPair[pathsize];
        for (int i = 0 ; i < pathsize; i++){
            IndexPair o = (IndexPair)path.get(pathsize-1-i);
            IndexPair np = new IndexPair((short)(o.getRow()-1),(short)(o.getCol()-1));
            newpath[i] = np;
        }
        
        a.setPath(newpath);
        a.setPathSize(pathsize);
        
      
    }
}
